Journal article
Research on design methods and aerodynamics performance of CQUDTU-B21 airfoil
This paper presents the design methods of CQU-DTU-B21 airfoil for wind turbine. Compared with the traditional method of inverse design, the new method is described directly by a compound objective function to balance several conflicting requirements for design wind turbine airfoils, which based on design theory of airfoil profiles, blade element momentum (BEM) theory and airfoil Self-Noise prediction model.
And then an optimization model with the target of maximum power performance on a 2D airfoil and low noise emission of design ranges for angle of attack has been developed for designing CQU-DTU-B21 airfoil. To validate the optimization results, the comparison of the aerodynamics performance by XFOIL and wind tunnels test respectively at Re=3×106 is made between the CQU-DTU-B21 and DU93-W-210 which is widely used in wind turbines. © (2012) Trans Tech Publications, Switzerland.
Language: | English |
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Publisher: | Trans Tech Publications Ltd |
Year: | 2012 |
Pages: | 1486-1490 |
Proceedings: | 2011 SSITE International Conference on Future Material Research and Industry Application |
ISSN: | 16628985 and 10226680 |
Types: | Journal article |
DOI: | 10.4028/www.scientific.net/AMR.455-456.1486 |
Aerodynamics Aerodynamics performance Airfoils Design Industrial applications Industrial research Mathematical models Optimization Power performance Wind tunnels Wind turbines